The influence of Ditylenchus (Nematoda) galls and shade on the fluctuating asymmetry of Miconia fallax (Melastomataceae)
Fluctuating asymmetry (FA) can be defined as small, random deviations from bilateral symmetry in structures that are bilaterally symmetrical and can estimate a population’s inability to buffer its growth against perturbations of environmental origins. Another important issue about FA is whether biotic factors may also induce stress in organisms. Therefore, in this study I aimed to investigate the influence of both the abiotic (light exposure) and biotic (Ditylenchus sp. galls) factors accounting for increased FA in Miconia fallax leaves. Galls are known as parasites and a major cause of leaf stress. Additionally, since M. fallax is a pioneer plant species, individuals in the shade were supposed to present high levels of FA relative to plants on the edges exposed to direct sunlight. Results showed no concomitant interaction between gall abundance, light exposure and FA. Separate analysis showed that plants in the shade presented the highest level of FA, almost 25% higher than plants on the edges, indicating that plants growing in places with little sunlight were in stressful condition. The presence of galls did not cause alterations in FA relative to leaves without galls. The lack of relationship between galls and leaf FA indicates that M. fallax can tolerate and buffer the presence of these leaf parasites, revealing the high homeostasis ability of this plant species against a biotic stress.
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Asociación Argentina de Ecología
2012
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rev-ecoaus-article-12652023-11-02T18:55:57Z The influence of Ditylenchus (Nematoda) galls and shade on the fluctuating asymmetry of Miconia fallax (Melastomataceae) La influencia de las agallas de Ditylenchus (Nematoda) y la sombra en la asimetría fluctuante de Miconia fallax (Melastomataceae) Alves-Silva, Estevão edge effect light exposure pioneer plant Cerrado efecto de borde exposición a la luz planta pionera Cerrado Fluctuating asymmetry (FA) can be defined as small, random deviations from bilateral symmetry in structures that are bilaterally symmetrical and can estimate a population’s inability to buffer its growth against perturbations of environmental origins. Another important issue about FA is whether biotic factors may also induce stress in organisms. Therefore, in this study I aimed to investigate the influence of both the abiotic (light exposure) and biotic (Ditylenchus sp. galls) factors accounting for increased FA in Miconia fallax leaves. Galls are known as parasites and a major cause of leaf stress. Additionally, since M. fallax is a pioneer plant species, individuals in the shade were supposed to present high levels of FA relative to plants on the edges exposed to direct sunlight. Results showed no concomitant interaction between gall abundance, light exposure and FA. Separate analysis showed that plants in the shade presented the highest level of FA, almost 25% higher than plants on the edges, indicating that plants growing in places with little sunlight were in stressful condition. The presence of galls did not cause alterations in FA relative to leaves without galls. The lack of relationship between galls and leaf FA indicates that M. fallax can tolerate and buffer the presence of these leaf parasites, revealing the high homeostasis ability of this plant species against a biotic stress. La asimetría fluctuante (AF) se refiere a las pequeñas desviaciones al azar en la simetría bilateral de las estructuras y órganos que son bilateralmente simétricos, y permite estimar la incapacidad de una población cualquiera para corregir su crecimiento de acuerdo con disturbios y tensiones ambientales. Una consideración importante en los estudios de la AF es si los factores bióticos también pueden causar estrés en la planta. Por lo tanto, el objetivo de este estudio fue investigar la influencia conjunta de factores abióticos (exposición solar) y bióticos (presencia de agallas de Ditylenchus sp.) en la asimetría de las hojas de Miconia fallax. Las agallas de las hojas son parásitos, y como M. fallax es una planta pionera, los individuos que se encuentran en la sombra pueden presentar niveles altos de AF en comparación con los de los bordes, expuestos a la luz solar directa. El análisis no mostró ninguna interacción entre la abundancia de agallas, la exposición al sol y AF. El análisis separado reveló que los individuos a la sombra tenían niveles más altos de la AF, aproximadamente 25% más alto que los individuos en los bordes, lo cual muestra que los individuos de M. fallax con poca luz se encuentran en condiciones de estrés. La presencia de agallas no causó ningún cambio o aumento de la AF en comparación con las hojas sin agallas. La falta de relación entre la presencia de agallas y AF indica que los individuos de M. fallax tienen una gran capacidad para mantener la homeostasis, ya que la planta ha tolerado estos parásitos sin cambios significativos en la AF de las hojas. Asociación Argentina de Ecología 2012-04-01 info:eu-repo/semantics/article info:eu-repo/semantics/publishedVersion Articles Artículos application/pdf https://ojs.ecologiaaustral.com.ar/index.php/Ecologia_Austral/article/view/1265 Ecología Austral; Vol. 22 No. 1 (2012): April 2012, Pages 1-79; 053-061 Ecología Austral; Vol. 22 Núm. 1 (2012): April 2012, Pages 1-79; 053-061 1667-782X 0327-5477 eng https://ojs.ecologiaaustral.com.ar/index.php/Ecologia_Austral/article/view/1265/636 Derechos de autor 2020 Estevão Alves-Silva https://creativecommons.org/licenses/by/3.0/ |
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| author |
Alves-Silva, Estevão |
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Alves-Silva, Estevão The influence of Ditylenchus (Nematoda) galls and shade on the fluctuating asymmetry of Miconia fallax (Melastomataceae) |
| author_facet |
Alves-Silva, Estevão |
| author_sort |
Alves-Silva, Estevão |
| title |
The influence of Ditylenchus (Nematoda) galls and shade on the fluctuating asymmetry of Miconia fallax (Melastomataceae) |
| title_short |
The influence of Ditylenchus (Nematoda) galls and shade on the fluctuating asymmetry of Miconia fallax (Melastomataceae) |
| title_full |
The influence of Ditylenchus (Nematoda) galls and shade on the fluctuating asymmetry of Miconia fallax (Melastomataceae) |
| title_fullStr |
The influence of Ditylenchus (Nematoda) galls and shade on the fluctuating asymmetry of Miconia fallax (Melastomataceae) |
| title_full_unstemmed |
The influence of Ditylenchus (Nematoda) galls and shade on the fluctuating asymmetry of Miconia fallax (Melastomataceae) |
| title_sort |
influence of ditylenchus (nematoda) galls and shade on the fluctuating asymmetry of miconia fallax (melastomataceae) |
| description |
Fluctuating asymmetry (FA) can be defined as small, random deviations from bilateral symmetry in structures that are bilaterally symmetrical and can estimate a population’s inability to buffer its growth against perturbations of environmental origins. Another important issue about FA is whether biotic factors may also induce stress in organisms. Therefore, in this study I aimed to investigate the influence of both the abiotic (light exposure) and biotic (Ditylenchus sp. galls) factors accounting for increased FA in Miconia fallax leaves. Galls are known as parasites and a major cause of leaf stress. Additionally, since M. fallax is a pioneer plant species, individuals in the shade were supposed to present high levels of FA relative to plants on the edges exposed to direct sunlight. Results showed no concomitant interaction between gall abundance, light exposure and FA. Separate analysis showed that plants in the shade presented the highest level of FA, almost 25% higher than plants on the edges, indicating that plants growing in places with little sunlight were in stressful condition. The presence of galls did not cause alterations in FA relative to leaves without galls. The lack of relationship between galls and leaf FA indicates that M. fallax can tolerate and buffer the presence of these leaf parasites, revealing the high homeostasis ability of this plant species against a biotic stress. |
| publisher |
Asociación Argentina de Ecología |
| publishDate |
2012 |
| url |
https://ojs.ecologiaaustral.com.ar/index.php/Ecologia_Austral/article/view/1265 |
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